Method for the Realization of Artificial Islands, Embankments, Piers, Breakwaters, Platforms, or Similar Structures in Bodies of Water and Structures Obtained

ABSTRACT

Artificial islands, embankments, piers, breakwaters, platforms, or similar structures, to be installed in bodies of water, such as rivers, lakes, seas, marshes, etc. comprising at least one pillar ( 10 ) realized by assembling a floating basement ( 11 ) with a set of structural elements ( 12 ) having same shape and dimensions. The basement ( 11 ) is a hollow part made of a bottom ( 15 ), and side walls ( 14 ) which delimitate an internal hollow space that can be reached from the outside through an aperture ( 18 ). The basement ( 11 ) is placed in an installation site ( 40 ) through, for instance, a crane. Then, on the bottom ( 15 ) of the basement ( 11 ) is laid down a certain quantity of a filling material ( 35 ) until the basement is partly under water. On the basement ( 11 ) are then positioned structural elements ( 12 ), one on top of the following. These are provided with side walls ( 14 ) having same shape and dimensions of the basement&#39;s side walls, and they are firmly fixed to one another in order to provide sealing and to avoid seepage of water inside the pillar ( 10 ) under construction. The above procedure is carried out until the basement ( 11 ) gets the bed ( 30 ) of the body of water. From the top of the last structural element ( 12 ) of the pillar ( 10 ), or head structural element, is inserted the filling material up to realize a firm flat surface ( 50 ) apt to be a base for any kind of building.

FIELD OF THE INVENTION

The present invention relates to a method for the realization of assembled structures, in particular building structures, such as artificial islands, embankments, piers, breakwaters, platforms or similar structures, in a body of water as a river, a lake, a sea, a marsh or others.

BACKGROUND OF THE INVENTION

As known there are several kinds of supporting structures to make buildings, for instance oil platforms, in bodies of water such as rivers, seas, lakes or others. A first kind of supporting structure for the realizations of building structures in bodies of water comprises a set of tubular elements creating a grid frame which is fixed to the bottom of the selected body of water. To this end, the installing phase is carried out through bulky and expensive devices and machineries in order to build the foundation of the supporting structure. That phase is particularly delicate as it is intended to firmly fix the supporting structure to the bottom of the body of water in order to prevent it from being damaged or swept away by the water flow. That action is performed, for instance, through specific drilling machines, installed in boats, which make holes for fixing to the bottom. Anyhow, in spite of such care the supporting structures made have a burden limit which cannot be overcome to prevent the breakdown of the whole structure. This matter, together with high installation costs and with the problems they bring forth, have reduced the spreading of such supporting structures which are used only to build offshore oil platforms.

A different type of supporting structure consists of a floating platform which is the base on which the further building structure is built. Anyway, in this case the floating structure cannot support weighty load, so that it has few possible utilizations.

Further solutions provide the realization of artificial islands through the sequential insertion of material in definite and bordered regions of the body of water.

SUMMARY OF THE INVENTION

The main object of the invention is to provide a method for the realization of artificial islands, embankments, piers, breakwaters, platforms or similar structures in bodies of water, such as rivers, lakes, seas, marshes or others, which is cheaper and easier to carry on than the solutions of the prior art.

This one and further objects are attained through a method for the realization of an artificial island, an embankment, a pier, a breakwater, a platform or similar structures in bodies of water, comprising the phases of:

-   -   locating, about the site where has to be installed, a floating         hollow basement made of a bottom and side walls and provided         with an upper aperture,     -   laying down from the top a filling material in the internal         volume of said basement through said upper aperture until the         basement itself is partly under water,     -   placing, on said lowered basement, a hollow structural element         made of side walls, an upper aperture and a lower aperture, the         walls of the present element and the walls of the basement         having the same dimensions and the same shape in plan,     -   laying down filling material through the upper aperture of said         structural element so that said basement (and the structural         element) lower again and are partly under water,     -   repeating the previous phases until the bottom of the basement         gets in contact with the bottom of the body of water,     -   filling the pillar made of the basement and the structural         elements with filling material until a firm flat surface is         obtained, said flat surface being over or under water.

In particular, it is possible to realize many structural pillars according to the above set of phases; at the top of the pillars, placed side by side, a continuous flat supporting surface is obtained.

Advantageously, in the case that the site of installation is subject to strong water current, the first pillar is placed with help of at least one cable fixed to the bottom of the body of water by drilling. In that way, the pillar is led, while immerging, to get the desired position at the bottom.

With reference to a further object of the present invention, an artificial island, an embankment, a pier, a breakwater, a platform or a similar structure which can be installed in a body of water, provides at least one pillar comprising:

-   -   a hollow floating basement, made of a bottom and side walls,         where is entered from the top a filling material in order to         cause a partial submersion of the basement itself,     -   one or more hollow structural elements made of side walls, an         upperside aperture and an underside aperture, placed on top of         the basement, one on top of the following, filled with filling         material up to obtain a firm flat surface, said flat surface         being over or under water.

In a possible embodiment of the invention, an artificial island, an embankment, a pier, a breakwater, a platform or a similar structure provides a plurality of pillars joined each other through structural elements being at the top of the pillars, in order to realize a continuous firm flat surface.

In particular, at least one side wall of the pillar is provided with joining means apt to link with joining means of the pillar which is built adjacent to the first one so that the structural elements are guided during positioning.

Advantageously, the joining means of a pillar provide at least a longitudinal seat to fit side protrusions of the structural elements of a pillar placed adjacent to it. In this way, once the first pillar has been built, to build the following pillar is made easier and is led by the presence of the joining means, so that the pillar is properly placed.

Preferably, the joining means of two side by side pillars make a dovetail joint.

Advantageously, the artificial island, or similar structure, provides a plurality of side by side pillars whose structural elements are placed through their joining means.

Advantageously, coming structural elements of each pillar provide reference means apt to facilitate their mutual arrangement.

In particular, it is provided a container to stock the filling material shipped to the installation site.

Advantageously, each structural element and the basement can be made of sheet metal, wood, concrete material or any other suitable material.

The filling material can be any conglomerate, as concrete, bitumen, waste material of various industrial processes and any other material.

In a possible embodiment, the basement has at least one beneath portion apt to realize one or more steps useful to fit the conformation of the bottom of the body of water.

Furthermore, the bottom of said basement can be provided with fastening means, for instance a pile shoe, apt to firmly fix said basement to the bottom of the body of water.

In particular, the basement and the structural elements have the same measures and the same shape in top view.

Advantageously, the filling material is reinforced with a proper material to increase its strength.

Finally, the structural elements can be partly filled with the filling material to realize a partially hollow pillar.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention will now be described by way of examples, with reference to the accompanying drawings, in which:

FIGS. 1A and 1B show, in axonometric projection, respectively a basement and a structural element of a first embodiment of the artificial island or similar structure of the invention;

FIGS. 2A and 2B show, in axonometric projection, respectively a basement and a structural element of a different embodiment of the artificial island or similar structure of the invention;

FIG. 2C shows, in a bottom axonometric projection, the basement of FIG. 1A in a different configuration where it is provided with pile shoes;

FIGS. 3 to 6 schematically show, in an elevated lateral axonometric projection, a likely sequence of phases to build a pillar according to the invention;

FIG. 7 schematically shows, in an elevated lateral axonometric projection, a phase of the realization of a second pillar being sideways placed to the first one through proper joining means;

FIGS. 8 and 9 show, in plan view, two possible configurations of the structural elements which are apt to join together to build the relating pillars;

FIGS. 10 and 11 respectively show in axonometric projection the structural elements of FIGS. 8 and 9;

FIG. 12 shows, in an elevated lateral axonometric projection, an artificial island made through the structural elements of FIGS. 10 and 11;

FIGS. 13 and 14 show, in a plan view, further possible configurations of the structural elements of FIGS. 1 and 2;

FIGS. 15 and 16 respectively show, in axonometric projection, the structural elements of FIGS. 13 and 14;

FIGS. 17 and 18 show, in axonometric projection, further possible configurations of the structural element of FIG. 2;

FIG. 19 show, in axonometric projection, a floating seafront made through a further possible configuration of the structural element of FIG. 1;

FIG. 20 shows, in axonometric projection, a pillar obtained by assembling structural elements according to a further possible configuration of the structural elements of FIGS. 1 and 2;

FIG. 21 shows, in an elevated axonometric projection, a detailed view of the pillar of FIG. 20;

FIGS. 22 and 23 respectively show, in axonometric projection, a jetty and a small artificial island which can be obtained through the method of the invention.

DESCRIPTION OF PREFERRED EMBODIMENTS

In FIG. 1A is shown a floating basement 11 of a pillar 10, according to the invention, to be installed in a body of water as a river, a lake, a sea, a marsh, etc. (FIG. 6). The basement 11 is a hollow part made of a bottom 15, side walls 14 which are the borders of the cavity approachable from the outside through an opening 18. The basement is placed in its installation position 40 (FIG. 3), through for instance, a crane not shown in figure.

Afterwards, through, for example, a duct 60 connected to a container 160, placed for instance on a ship, is entered in the basement 15 a certain quantity of filling material 35 until it causes a partial submersion of the basement itself (FIG. 4). On the basement are then disposed, one by one, structural elements 12 (FIG. 5). These elements are provided with side walls 14 of the same shape and dimensions of the basement 11 and they are firmly fixed to one another in order to provide sealing and to avoid seepage of water inside the pillar 10 under construction. The above process is repeated until the basement 11 gets the bottom 30 of the body of water (FIG. 6). In particular, the basement 11 may be provided with fastening means, for instance pile shoes 35, mounted in the bottom surface 15 of the basement which mates the bottom of the body of water. In this way, a tight fastening of the basement 11 to the bottom of the body of water is obtained (FIG. 2C). In an embodiment, shown in FIG. 7, the basement is provided with at least one lower portion apt to make one or more steps useful to fit the conformation of the bed of the body of water.

In the last (from the bottom) structural element 12 of the pillar 10, or head structural element, is inserted the filling material up to realize a firm flat surface 50 apt to be the base for any kind of building.

As shown in said FIG. 7, adjacent to the pillar 10, already made by this time, it is possible to build a second pillar 20 proceeding as for the above disclosed first pillar 10. In particular, one or more side walls of the basement 11 and of each structural element 12 provided with joining means 13 apt to couple with corresponding joining means 23. More in detail, the joining means 13 and 23 are apt to lead the placement of the basement 21 and of structural elements 22 of the lo second pillar 20 (FIG. 7).

The joining means 13 and 23 may be, for example, side protrusions 13 and cuts 23. Though in the disclosed figures the first pillar has side protrusions 13 and the second pillar has cuts 23 in which the protrusions 13 themselves vertically slide during the placement of the respective structural elements, the invention may also is provide to previously install the pillar with cuts and then the pillar with protrusions. By placing several pillars side by side, a continuous flat surface 50 of the desired dimensions can be realized. This one can also be realized by building a series of individually, or in groups, spaced pillars connected through crosspieces, solution not shown in figures.

In FIGS. 8 to 12 is shown a different configuration of the basements 11′ and 21′ and of their structural elements 12′ and 22′, as an alternative solution to the one shown in FIGS. 1 to 7. In particular, in this case the cuts 13′ and the protrusions 23′ couple together to form a dovetail joint. In FIGS. 13 to 16 are shown further configurations of the basements 11″ and 21″ and of their structural elements 12″ and 21″, having a circle-like section.

In FIGS. 17 and 18 are shown further configurations of structural elements 12′″ and 12 ^(iv) having side protrusions 13′″ and 13 ^(iv) coming in turns, along the perimeter, with cuts 23′″ and 23 ^(iv), so that structural elements having the same shape can be placed side by side.

In FIG. 19 is shown a floating seafront obtained by placing side by side structural elements having the same shape. In this solution the structural elements, filled with light material, are connected to anchor weights 80 laying on the bottom of the body of water. In FIGS. 20 and 21 is shown a pillar having a truss structure obtained through a further possible configuration of the structural elements 11 ^(v) and 12 ^(v), providing hollow vertical tubular elements which are filled with material and which house the joining means 13 ^(v) and 23 ^(v).

FIGS. 22 and 23 show two possible sites, in particular a jetty and a “sea grill” that is a small island housing a service station with a restaurant or a snack-bar, which can be obtained by building on a flat surface realized in a body of water through the method of the invention.

The above description of specific embodiments is able to disclose the concept of the invention so that other people, by using the prior art, will be able to modify and/or arrange for a specific field of application said specific embodiment with no need of further research and without vary the inventive concept, and, so, it is stated that such modifications and arrangements could be considered equivalent to the specific embodiment. Means and materials to realize the disclosed functions could be different always within the limits of the invention.

The above wording is only for disclosing purposes and so it is in no way restricting. 

1- Method for the realization of an artificial island, an embankment, a pier, a breakwater, a platform or a similar structure in a body of water, characterized in that it comprises the phases of: locating, about the site where has to be installed, a floating hollow basement made of a bottom and side walls and provided with an upper aperture, laying down from the top a filling material in the internal volume of said basement through said upper aperture until the basement itself is partly under water, placing, on said lowered basement, a hollow structural element made of side walls, an upper aperture and a lower aperture, laying down filling material from the top into said structural element so that said basement (and the structural element) lower again and are partly under water, repeating the previous phases until the bottom of the basement gets in contact with the bottom of the body of water, filling, through the head structural element, the pillar made of basement and structural elements with filling material until a firm flat surface is obtained. 2- Method for the realization of an artificial island, an embankment, a pier, a breakwater, a platform or a similar structure according to claim 1, whereas the placement of said pillar is carried out by using at least one cable fixed to the bottom of the body of water by drilling. 3- Method for the realization of an artificial island, an embankment, a pier, a breakwater, a platform or a similar structure in any sort of body of water characterized in that it provides a plurality of adjacent pillars made according to claim 1, said plurality of pillars composing a continuous firm flat surface. 4- Artificial island, embankment, pier, breakwater, platform or similar structure to be installed in any sort of body of water characterised in that it comprises at least one pillar comprising: a hollow floating basement, made of a bottom, shaped side walls and at least one upper aperture through which is entered a filling material in order to cause a partial submersion of the basement itself, one or more hollow structural elements, made of side walls, which are placed on top of the basement, one on top of the following, said structural elements taking within, from the top, a filling material up to obtain a firm flat surface at the desired height level. 5- Artificial island, embankment, pier, breakwater, platform or similar structure according to claim 4 comprising a plurality of adjacent pillars whose head structural elements compose a continuous firm flat surface. 6- Artificial island, embankment, pier, breakwater, platform or similar structure according to claim 5, whereas on top of the pillars is built a foundation, with or without reinforced structure, on which can be built any other kind of structure. 7- Artificial island, embankment, pier, breakwater, platform or similar structure according to claim 4, in which said pillar is provided with joining means apt to couple with corresponding joining means of a second pillar which is built adjacent to it in order to lead the placement of the structural elements of said second pillar. 8- Artificial island, embankment, pier, breakwater, platform or similar structure according to claim 7, whereas said joining means provide at least one longitudinal cut in a pillar apt to lead the side protrusions of the structural elements of the pillar built adjacent to it. 9- Artificial island, embankment, pier, breakwater, platform or similar structure according to claim 7, whereas said joining means make a dovetail joint or a differently shaped joint. 10- Artificial island, embankment, pier, breakwater, platform or similar structure according to claim 4, whereas said structural elements of said pillar are provided with reference means apt to facilitate their placement one on top of the other. 11- Artificial island, embankment, pier, breakwater, platform or similar structure according to claim 4, whereas said filling material is provided by a container or by any other means. 12- Artificial island, embankment, pier, breakwater, platform or similar structure according to claim 4, whereas said basement and said structural elements are made of any pure or compound material, for instance sheet metal, plastics, concrete material, any conglomerate material, even reinforced, stone material, etc. 13- Artificial island, embankment, pier, breakwater, platform or similar structure according to claim 4, whereas said filling material may be concrete material, any conglomerate material, waste material of various industrial processes, bitumen, any binding material or other materials. 14- Artificial island, embankment, pier, breakwater, platform or similar structure according to claim 4, whereas said basement has at least one beneath portion apt to realize one or more steps useful to fit the conformation of the bottom of the body of water. 15- Artificial island, embankment, pier, breakwater, platform or similar structure according to claim 4, whereas the bottom of said basement is provided with fastening means. 16- Artificial island, embankment, pier, breakwater, platform or similar structure according to claim 4, whereas said basement and every structural elements have the same measures and the same shape in top view. 17- Artificial island, embankment, pier, breakwater, platform or similar structure according to claim 4, whereas said filling material is reinforced with a proper material to increase its strength. 18- Artificial island, embankment, pier, breakwater, platform or similar structure according to claim 4, whereas said structural elements are just partly filled with said filling material in order to realize a partially hollow pillar. 19- Artificial island, embankment, pier, breakwater, platform or similar structure according to claim 4, whereas just said basement filled with said filling material form an artificial island or part of a embankment. 20- Artificial island, embankment, pier, breakwater, platform or similar structure according to claim 4, whereas single basements, pillars or groups of them form a base for building structures such as bridges, roads, etc. 21- Artificial island, embankment, pier, breakwater, platform or similar structure according to claim 4, whereas said firm flat surface of said pillar is realized underneath the water level. 